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Best Power and Best Performance

Best Power and Best Performance, Total:80 items.

In the international standard classification, Best Power and Best Performance involves: On-board equipment and instruments, Radiocommunications, Resistors, Environmental protection, Energy and heat transfer engineering in general, Products of the textile industry, Ceramics, Electrical accessories, Wastes, Construction materials, Processes in the glass and ceramics industries, Valves, Testing of metals, Machine tool systems, Information technology (IT) in general, Electronic components in general, Company organization and management, Protection against crime, Aids for disabled or handicapped persons, Passenger cars. Caravans and light trailers.

Consumer Electronics Association （U.S.), Best Power and Best Performance

• CEA-426-B-1998 Loudspeakers, Optimum Amplifier Power

U.S. Military Regulations and Norms, Best Power and Best Performance

• ARMY MIL-PRF-39010 E SUPP 1-1997 COIL, RADIO FREQUENCY, FIXED, MOLDED, ESTABLISHED RELIABILITY AND NON-ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39010 E-1997 COIL, RADIO FREQUENCY, FIXED, MOLDED, ESTABLISHED RELIABILITY AND NON-ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39001 D-2004 CAPACITORS, FIXED, MICA DIELECTRIC, ESTABLISHED RELIABILITY AND NONESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39017 G-2006 RESISTORS, FIXED, FILM (INSULATED), NONESTABLISHED RELIABILITY, AND ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39007 J SUPP 1-2005 RESISTORS, FIXED, WIRE-WOUND, (POWER TYPE) NONESTABLISHED RELIABILITY, ESTABLISHED RELIABILITY, AND SPACE LEVEL GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39007 J-2005 RESISTORS, FIXED, WIRE-WOUND, (POWER TYPE) NONESTABLISHED RELIABILITY, ESTABLISHED RELIABILITY, AND SPACE LEVEL GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39014 G SUPP 1-2005 CAPACITOR, FIXED, CERAMIC DIELECTRIC (GENERAL PURPOSE), ESTABLISHED RELIABILITY AND NONESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39014 G-2005 CAPACITOR, FIXED, CERAMIC DIELECTRIC (GENERAL PURPOSE), ESTABLISHED RELIABILITY AND NONESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-55182 H (2)-2007 RESISTORS, FIXED, FILM, NONESTABLISHED RELIABILITY, ESTABLISHED RELIABILITY, AND SPACE LEVEL, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39015 E-2006 RESISTORS, VARIABLE, WIRE WOUND, (LEAD SCREW ACTUATED), NONESTABLISHED RELIABILITY, AND ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-39009 E-2004 RESISTORS, FIXED, WIRE WOUND, (POWER TYPE, CHASSIS MOUNTED), NONESTABLISHED RELIABILITY, ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-49470 B SUPP 1-2003 CAPACITOR, FIXED, CERAMIC DIELECTRIC, SWITCH MODE POWER SUPPLY (GENERAL PURPOSE AND TEMPERATURE STABLE), STANDARD RELIABILITY AND HIGH RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-49470 B-2003 CAPACITOR, FIXED, CERAMIC DIELECTRIC, SWITCH MODE POWER SUPPLY (GENERAL PURPOSE AND TEMPERATURE STABLE), STANDARD RELIABILITY AND HIGH RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-55514 F SUPP 1-2005 CAPACITORS, FIXED, PLASTIC (OR METALLIZED PLASTIC) DIELECTRIC, DC OR DC-AC, IN NONMETAL CASES, NON-ESTABLISHED AND ESTABLISHED RELIABILITY GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-55514 F-2005 CAPACITORS, FIXED, PLASTIC (OR METALLIZED PLASTIC) DIELECTRIC, DC OR DC-AC, IN NONMETAL CASES, NON-ESTABLISHED AND ESTABLISHED RELIABILITY GENERAL SPECIFICATION FOR

RU-GOST R, Best Power and Best Performance

• GOST R 56828.24-2017 Best available techniques. Energy saving. Guidance on the application of the best available techniques for increasing the energy efficiency energy saving
• GOST R 56828.18-2017 Best available techniques. Production of cement. Aspects for improving energy efficiency
• GOST R 56828.28-2017 Best available techniques. Production of glass. Aspects for improving energy efficiency
• GOST R 56828.23-2017 Best available techniques. Production of lime. Aspects for improving energy efficiency
• GOST R 54207-2010 Resources conservation. Leather industry. Best available techniques for the energy efficiency
• GOST R 57007-2016 Best available techniques. Biodiversity. Terms and definitions
• GOST R 54194-2010 Resources saving. Production of cement. Best available techniques for improving energy efficiency
• GOST R 54206-2010 Resources saving. Production of lime. Best available techniques for improving energy efficiency
• GOST R 56828.20-2017 Best available techniques. Production of ceramic tiles. Aspects for improving energy efficiency and environmental performance
• GOST R 56828.21-2017 Best available techniques. Production of ceramic bricks and stones. Aspects for improving energy and environmental efficiency
• GOST R 55645-2013 Resource saving. Production of ceramic tiles. Guidance on implementing best available techniques for improving energy efficiency and environmental performance
• GOST R 54205-2010 Resources conservation. Waste treatment. Best available techniques for improving energy efficiency on incineration
• GOST R 54193-2010 Resources saving. Energy production. Guidance on implementing the best available techniques for improving energy efficiency in thermal energy generation
• GOST R 54200-2010 Resources saving. Energy production. Guidance on implementing the best available techniques for improving energy efficiency in fuel combustion
• GOST R 54198-2010 Resourses saving. Industrial production. Guidance on the application of the best available technologies for increasing the energy efficiency
• GOST R 55646-2013 Resource saving. Production of ceramic bricks and stones. Guidance on implementing of best available techniques for improving energy efficiency and environmental performance
• GOST R 54199-2010 Resources saving. Energy production. Guidance on implementing the best available techniques for improving energy efficiency in electricity generation
• GOST R 54201-2010 Resources saving. Production of domestic and container glass. Best available techniques for improving energy efficiency
• GOST R 56828.4-2015 Best available techniques. Approaches to the comparative analysis resource efficiency and environmental performance of companies to prevent and minimize negative effects on the environmental
• GOST R 56828.30-2017 Best available techniques. Resources saving. The methodology for the treatment of waste to produce secondary fuel and energy resources

European Telecommunications Standards Institute (ETSI), Best Power and Best Performance

• ETSI GS NFV-PER 001-2014 Network Functions Virtualisation (NFV); NFV Performance & Portability Best Practises (V1.1.2)

ETSI - European Telecommunications Standards Institute, Best Power and Best Performance

• GS NFV-PER 001-2014 Network Functions Virtualisation (NFV); NFV Performance & Portability Best Practises (V1.1.2)
• TR 103 541-2018 Environmental Engineering (EE); Best practice to assess energy performance of future Radio Access Network (RAN) deployment (V1.1.1)

(U.S.) Ford Automotive Standards, Best Power and Best Performance

• FORD WFPP002-2005 BEST PRACTICES AND COMPLEXITY REDUCTION
• FORD WSS-M2C938-A2-2010 FLUID, AUTOMATIC TRANSMISSION OPTIMIZED FOR ANTI SQUAWK PERFORMANCE ***TO BE USED WITH FORD WSS-M99P1111-A***

ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., Best Power and Best Performance

• ASHRAE 90447-2009 Best Practices for Datacom Facility Energy Efficiency
• ASHRAE 90438-2008 Best Practices for Datacom Facility Energy Efficiency
• ASHRAE DA-07-022-2007 Best practices for Data Center Thermal and Energy Management - Review of Literature
• ASHRAE 90331-2012 Performance Measurement Protocols for Commercial Buildings: Best Practices Guide (Includes Access to Additional Content)
• ASHRAE DA-07-047-2007 Best Practices for Energy-Efficient Data centers Identified through Case Studies and Demonstration Projects

Defense Logistics Agency, Best Power and Best Performance

• DLA MIL-PRF-28776 D (1)-2005 RELAYS, HYBRID, ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• DLA MIL-PRF-28776 D SUPP 1-2002 RELAYS, HYBRID, ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• DLA MIL-PRF-32140-2004 RELAYS, ELECTROMAGNETIC, RADIO FREQUENCY, ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• DLA MIL-PRF-32085 (1)-2002 RELAYS, ELECTROMAGNETIC, 270 V DC, ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• DLA MIL-PRF-32085-2001 RELAYS, ELECTROMAGNETIC, 270 V DC, ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
• DLA MIL-PRF-31033 A-2003 CAPACITORS, FIXED, CERAMIC DIELECTRIC, HIGH RELIABILITY, DISCOIDAL, GENERAL SPECIFICATION FOR
• DLA MIL-PRF-32159 SUPP 1-2004 RESISTORS, CHIP, FIXED, FILM, ZERO OHM, INDUSTRIAL, HIGH RELIABILITY, SPACE LEVEL, GENERAL SPECIFICATION FOR
• DLA MIL-PRF-31031 B-2005 CONNECTORS, ELECTRICAL, PLUGS AND RECEPTACLES, COAXIAL, RADIO FREQUENCY, HIGH RELIABILITY, FOR FLEXIBLE AND SEMIRIGID CABLES GENERAL SPECIFICATION FOR

American Gear Manufacturers Association, Best Power and Best Performance

• AGMA 09FTM15-2009 High Performance Industrial Gear Lubricants for Optimal Reliability

Korean Agency for Technology and Standards (KATS), Best Power and Best Performance

• KS B 4408-2013 Machine tools－Test code for performance and accuracy of vertical type machining centers

National Aeronautics and Space Administration (NASA), Best Power and Best Performance

• NASA-CR-2200-1973 Maximum likelihood identification and optimal input design for identifying aircraft stability and control derivatives

AGMA - American Gear Manufacturers Association, Best Power and Best Performance

• 09FTM15-2009 High Performance Industrial Gear Lubricants for Optimal Reliability

SAE - SAE International, Best Power and Best Performance

• SAE J167-1980 Overhead Protection for Agricultural Tractors - Test Procedures and Performance Requirements
• SAE J167-1981 Overhead Protection for Agricultural Tractors - Test Procedures and Performance Requirements
• SAE J167-1970 Overhead Protection for Agricultural TractorsTest Procedures and Performance Requirements

NATO - North Atlantic Treaty Organization, Best Power and Best Performance

• AEP-59-2009 APPLICATION PROCESS FOR OPTIMUM PAINT AND COATINGS SYSTEMS' PERFORMANCE (ED 2)

Society of Automotive Engineers (SAE), Best Power and Best Performance

• SAE J167A-1974 OVERHEAD PROTECTION FOR AGRICULTURAL TRACTORS—TEST PROCEDURES AND PERFORMANCE REQUIREMENTS
• SAE AVSC00006-202103 AVSC Best Practice for Metrics and Methods for Assessing Safety Performance of Automated Driving Systems (ADS)
• SAE AVSC00012202308-2023 AVSC Best Practice for Developing ADS Safety Performance Thresholds Based on Human Driving Behavior

AT-ON, Best Power and Best Performance

• ONORM C 9740-1983 Laminates for ski; dejinition, properties and lest methods
• ONORM C 9745-1985 Thermoplastic semi-finished products for the ski production; definitions, properties and fest methods

International Organization for Standardization (ISO), Best Power and Best Performance

• ISO/IEC TR 27563 Security and privacy in artificial intelligence use cases — Best practices
• ISO/IEC TR 27563:2023 Security and privacy in artificial intelligence use cases — Best practices

British Standards Institution (BSI), Best Power and Best Performance

• PD ISO/IEC TR 27563:2023 Security and privacy in artificial intelligence use cases. Best practices
• KIT 214-2010 Business Continuity Management Best Practice Kit. Standards and Books
• BS CWA 16697:2013 Car-Adaptations for Disabled Drivers. Requirements, test methods and best practise guidelines

Instrument Society of America (ISA), Best Power and Best Performance

• ISA ADV CNTRL UNLEA PLA PER MAN BEN-2004 Advanced Control Unleashed - Plant Performance Management for Optimum Benefit

The American Road & Transportation Builders Association, Best Power and Best Performance

• AASHTO SMC-2004 Best Practices in Smart Growth and Transportation 2004 COMPETITION

European Committee for Standardization (CEN), Best Power and Best Performance

• CWA 18002:2023 Best practices for hybridization and injection moulding of rigid control units on in-mould flexible devices
• CWA 16697:2013 Car-Adaptations for Disabled Drivers - Requirements, test methods and best practise guidelines

ESDU - Engineering Sciences Data Unit, Best Power and Best Performance

• CFD-BPG 09010-2009 CFD Best Practice Guidelines for modelling friction losses and flow characteristics in straight pipes
• CFD-BPG 11010-2011 CFD Best Practice Guidelines for modelling pressure losses and flow characteristics in square-and knife-edged orifice plates
• DWN CFD-BPG 11010-2011 CFD Best Practice Guidelines for Modelling pressure losses and flow characterisitcs in square-edge orifice plates (Issue 2)

American National Standards Institute （ANSI), Best Power and Best Performance

• ANSI/BICSI 005-2013 Electronic Safety and Security (ESS) System Design and Implementation Best Practices

Others:   Optimum Power and Adaptability, Optimum power and own use, Best Power and Best Performance, Optimum power and maximum performance, Best performance and best power, Highest Performance Best Power, Best Power Best Performance.